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Course List

Electrical Circuits 2

  • Course Code :
    EPR 263
  • Level :
    Undergraduate
  • Course Hours :
    4.00 Hours
  • Department :
    Department of Electrical Engineering

Instructor information :

Area of Study :

Upon successful completion of the course, the student should be able to: • understand the transient performance of 1st and 2nd order circuits. • develop the steady state power analysis for circuits with sinusoidal sources and apply maximum power transfer theorem on AC electrics. • understand the operation of 3-phase circuits with different connections. • know the performance of magnetically coupled circuits and linear transformers. • understand the frequency response of circuits supplied by a variable frequency sources and the concepts of resonance circuits. • develop practical skills of testing 1st and 2nd order circuits during transient, 3-phase circuits.

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Electrical Circuits 2

Transient analysis in R-L, R-C, and RLC circuits. Steady state power analysis for circuits with sinusoidal sources. Maximum power transfer theorem. Three phase circuits; connections, transformations, and power measurements. Magnetically coupled circuits: linear transformer equivalent circuits, ideal transformer. Frequency response, Series and parallel resonance circuits, Quality factor, 3 dB bandwidth, Resonance in mutually coupled circuits.

For further information :

Electrical Circuits 2

Course outcomes:

a. Knowledge and Understanding:

1- a1. Demonstrate the transient performance of 1st order and 2nd order electrical circuits.
2- a2. Demonstrate knowledge and understanding of AC power analysis.
3- a3. Describe three phase circuits with different connections.
4- a4. Understand magnetically coupled circuits.
5- a5. Illustrate the frequency response of resonant circuits.
6- a6. Establish the equivalent circuits of different two-port networks.

b. Intellectual Skills:

1- b1. Evaluate the transient performance of 1st and 2nd order circuits.
2- b2. Perform basic calculations of AC power analysis.
3- b3. Examine different connections of three phase circuits.
4- b4. Perform basic calculations of magnetically coupled circuits.
5- b5. Evaluate the frequency response of resonant circuits.

c. Professional and Practical Skills:

1- c1. Develop practical skills of testing 1st and 2nd order circuits during transient.
2- c2. Practice basic experiments on 3-phase circuits.
3- c3. Test the frequency response of resonant circuits.

d. General and Transferable Skills:

1- d1. Work coherently and successfully as a part of a team in the Lab.
2- d2. Communicate effectively.
3- d3. Effectively manage tasks, time, and resources.

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Electrical Circuits 2

Course topics and contents:

Topic No. of hours Lecture Tutorial/Practical
Transient analysis in R-L and R-C circuits. 18 9 9
Transient analysis in RLC circuits. 12 6 6
Steady state power analysis for AC circuits. 12 6 6
Three phase circuits. 12 6 6
Magnetically coupled circuits 12 6 6
Frequency response and resonance circuits. 12 6 6
Revision on Electric Circuits 1 6 3 3
Two-port networks. 6 3 3

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Electrical Circuits 2

Teaching And Learning Methodologies:

Teaching and learning methods
Lectures.
Tutorials.
E-Learning Program.
Laboratories.

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Electrical Circuits 2

Course Assessment :

Methods of assessment Relative weight % Week No. Assess What
• Final exam : 40.00
o In Class Quizzes 10.00
o Lab 10.00
o Mid-Term exams 30.00
o Participations 10.00

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Electrical Circuits 2

Books:

Book Author Publisher
Fundamentals of Electric Circuits Alexander Sadiku McGraw Hill

Recommended books :

2. "Basic Engineering Circuit Analysis", J. D. Irwin, Fourth edition, Macmillan, most recent edition. 3."Electric Circuits", James W. Nilsson and Susan A. Riedel, Addison Wesley, most recent edition.Ramsey.

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